Descrição

Calcium flux dynamics through TRPV channels upon phytocannabinoid stimulation. Initial channel activation followed by desensitization could reduce the sustained calcium influx that drives seizure propagation.

Figure 84

Diagram

Source Paper

Receptors and Channels Possibly Mediating the Effects of Phytocannabinoids on Seizures and Epilepsy.

Pharmaceuticals (Basel, Switzerland) (2020)

PMID: 32751761

DOI: 10.3390/ph13080174

Cite This Figure

![Figure 84: Calcium flux dynamics through TRPV channels upon phytocannabinoid stimulation. Initial channel activation followed by desensitization could reduce the sustained calcium influx that drives seizure propagation.]()

> Source: Lara Senn et al. "Receptors and Channels Possibly Mediating the Effects of Phytocannabinoids on Se." *Pharmaceuticals (Basel, Switzerland)*, 2020. PMID: [32751761](https://pubmed.ncbi.nlm.nih.gov/32751761/)

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  <img src="" alt="Calcium flux dynamics through TRPV channels upon phytocannabinoid stimulation. Initial channel activation followed by desensitization could reduce the sustained calcium influx that drives seizure propagation." />
  <figcaption>Figure 84. Calcium flux dynamics through TRPV channels upon phytocannabinoid stimulation. Initial channel activation followed by desensitization could reduce the sustained calcium influx that drives seizure propagation.<br>  Source: Lara Senn et al. "Receptors and Channels Possibly Mediating the Effects of Phytocannabinoids on Se." <em>Pharmaceuticals (Basel, Switzerland)</em>, 2020. PMID: <a href="https://pubmed.ncbi.nlm.nih.gov/32751761/">32751761</a></figcaption>
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